Biofilm rupture by laser-induced stress waves increases with loading amplitude, independent of location

Kearns, K. L.; Boyd, James D.; Grady, Martha E.

doi:10.1101/827964

Cited by 2 publications

(1 citation statement)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The substrate assembly, depicted in Fig. 2b, and the experimental method of spallation testing are discussed in greater detail in Boyd et al[27] and Kearns et al [29].…”

Section: Laser Spallation Configuration and Film Loadingmentioning

confidence: 99%

Biofilm and Cell Adhesion Strength on Dental Implant Surfaces via the Laser Spallation Technique

Boyd

Miller

Grady

2019

Preprint

Self Cite

View full text Add to dashboard Cite

ObjectivesThe aim of this study is to quantify the adhesion strength differential between an oral bacterial biofilm and an osteoblast-like cell monolayer to a dental implant-simulant surface and develop a metric that quantifies the biocompatible efficacy of implant surfaces.MethodsHigh-amplitude short-duration stress waves generated by laser pulse absorption are used to spall bacteria and cells from titanium substrates. By carefully controlling laser fluence and calibration of laser fluence with applied stress, the adhesion difference between dental carry Streptococcus mutans biofilms and MG 63 osteoblast-like cell monolayers on smooth and rough titanium substrates is obtained. The Adhesion Index consists of a ratio of cell adhesion strength to biofilm adhesion strength obtaining a nondimensionalized parameter for biocompatibility assessments.ResultsAdhesion strength of 145±42 MPa is measured for MG 63 on smooth titanium, which increases to 288±24 MPa on roughened titanium. Adhesion strength for S. mutans on smooth titanium is 315±9 MPa and remained relatively constant at 332±9 MPa on roughened titanium. The Adhesion Index for smooth titanium is 0.46±0.12 which increased to 0.87±0.05 on roughened titanium.SignificanceThe laser spallation technique provides a platform to examine the tradeoffs of adhesion modulators on both biofilm and cell adhesion. This tradeoff is characterized by the Adhesion Index, which is proposed to aid biocompatibility screening and could result in improved implantation outcomes. The Adhesion Index is implemented to determine surface factors that promote favorable adhesion of cells greater than biofilms. Here, an Adhesion Index >> 1 suggests favorable biocompatibility.Graphical AbstractHighlightsBiofilm and cell monolayer adhesion are measured via the laser spallation techniqueSmooth and roughened dental implant-mimicking titanium surfaces are investigatedSurface roughness increases cell adhesion but does not alter the adhesion of biofilmsAn Adhesion Index is developed to directly quantify the adhesive competition between bacteria and cells on an implant surface

show abstract

“…The substrate assembly, depicted in Fig. 2b, and the experimental method of spallation testing are discussed in greater detail in Boyd et al[27] and Kearns et al [29].…”

Section: Laser Spallation Configuration and Film Loadingmentioning

confidence: 99%